Measuring subhalo mass in redMaPPer clusters with CFHT Stripe 82 Survey

TL;DR

This study measures the subhalo masses of satellite galaxies in redMaPPer clusters using CFHT Stripe-82 shear data, revealing how subhalo-to-stellar mass ratios vary with radius and stellar mass, providing insights into galaxy cluster substructure.

Contribution

It introduces a method to quantify subhalo masses in clusters using shear measurements and models the dependence on radius and stellar mass, which is a novel analysis in this context.

Findings

Subhalo-to-stellar mass ratio increases with projected radius.

More massive satellites have larger subhalo masses.

Subhalo mass ratios vary significantly with radius and stellar mass.

Abstract

We use the shear catalog from the CFHT Stripe-82 Survey to measure the subhalo masses of satellite galaxies in redMaPPer clusters. Assuming a Chabrier Initial Mass Function (IMF) and a truncated NFW model for the subhalo mass distribution, we find that the sub-halo mass to galaxy stellar mass ratio increases as a function of projected halo-centric radius $r_p$, from $M_{\rm sub}/M_{\rm star}=4.43^{+ 6.63}_{- 2.23}$ at $r_p \in [0.1,0.3]$ $h^{-1}Mpc$ to $M_{\rm sub}/M_{\rm star}=75.40^{+ 19.73}_{- 19.09}$ at $r_p \in [0.6,0.9]$ $h^{-1}Mpc$. We also investigate the dependence of subhalo masses on stellar mass by splitting satellite galaxies into two stellar mass bins: $10<\log(M_{\rm star}/M_{\rm sun})<10.5$ and $11<\log(M_{\rm star}/M_{\rm sun})<12$. The best-fit subhalo mass of the more massive satellite galaxy bin is larger than that of the less massive satellites: $\log(M_{\rm sub}/M_{\rm sun})=11.14 ^{+ 0.66 }_{- 0.73}$ ($M_{\rm sub}/M_{\rm star}=19.5^{+19.8}_{-17.9}$) versus $\log(M_{\rm sub}/M_{\rm sun})=12.38 ^{+ 0.16 }_{- 0.16}$ ($M_{\rm sub}/M_{\rm star}=21.1^{+7.4}_{-7.7}$).